hush3/qa/rpc-tests/cryptoconditions_faucet.py

#!/usr/bin/env python2
# Copyright (c) 2018 SuperNET developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.


from test_framework.test_framework import BitcoinTestFramework
from test_framework.authproxy import JSONRPCException
from test_framework.util import assert_equal, assert_greater_than, \
    initialize_chain_clean, initialize_chain, start_nodes, start_node, connect_nodes_bi, \
    stop_nodes, sync_blocks, sync_mempools, wait_bitcoinds, rpc_port, assert_raises
from cryptoconditions import assert_success, assert_error, generate_random_string


class CryptoconditionsFaucetTest(BitcoinTestFramework):

    def setup_chain(self):
        print("Initializing CC test directory "+self.options.tmpdir)
        self.num_nodes = 2
        initialize_chain_clean(self.options.tmpdir, self.num_nodes)

    def setup_network(self, split = False):
        print("Setting up network...")
        self.addr    = "RWPg8B91kfK5UtUN7z6s6TeV9cHSGtVY8D"
        self.pubkey  = "02676d00110c2cd14ae24f95969e8598f7ccfaa675498b82654a5b5bd57fc1d8cf"
        self.privkey = "UqMgxk7ySPNQ4r9nKAFPjkXy6r5t898yhuNCjSZJLg3RAM4WW1m9"
        self.addr1    = "RXEXoa1nRmKhMbuZovpcYwQMsicwzccZBp"
        self.pubkey1  = "024026d4ad4ecfc1f705a9b42ca64af6d2ad947509c085534a30b8861d756c6ff0"
        self.privkey1 = "UtdydP56pGTFmawHzHr1wDrc4oUwCNW1ttX8Pc3KrvH3MA8P49Wi"
        self.nodes   = start_nodes(self.num_nodes, self.options.tmpdir,
                    extra_args=[[
                    # always give -ac_name as first extra_arg and port as third
                    '-ac_name=REGTEST',
                    '-conf='+self.options.tmpdir+'/node0/REGTEST.conf',
                    '-port=64367',
                    '-rpcport=64368',
                    '-regtest',
                    '-addressindex=1',
                    '-spentindex=1',
                    '-ac_supply=5555555',
                    '-ac_reward=10000000000000',
                    '-pubkey=' + self.pubkey,
                    '-ac_cc=2',
                    '-whitelist=127.0.0.1',
                    '-debug',
                    '--daemon',
                    '-rpcuser=rt',
                    '-rpcpassword=rt'
                    ],
                    ['-ac_name=REGTEST',
                    '-conf='+self.options.tmpdir+'/node1/REGTEST.conf',
                    '-port=64365',
                    '-rpcport=64366',
                    '-regtest',
                    '-addressindex=1',
                    '-spentindex=1',
                    '-ac_supply=5555555',
                    '-ac_reward=10000000000000',
                    '-pubkey=' + self.pubkey1,
                    '-ac_cc=2',
                    '-whitelist=127.0.0.1',
                    '-debug',
                    '-addnode=127.0.0.1:64367',
                    '--daemon',
                    '-rpcuser=rt',
                    '-rpcpassword=rt']]
        )
        self.is_network_split = split
        self.rpc              = self.nodes[0]
        self.rpc1             = self.nodes[1]
        self.sync_all()
        print("Done setting up network")

    def send_and_mine(self, xtn, rpc_connection):
        txid = rpc_connection.sendrawtransaction(xtn)
        assert txid, 'got txid'
        # we need the tx above to be confirmed in the next block
        rpc_connection.generate(1)
        return txid

    def run_faucet_tests(self):
        rpc = self.rpc
        rpc1 = self.rpc1

        # basic sanity tests
        result = rpc.getwalletinfo()
        assert_greater_than(result['txcount'], 100)
        assert_greater_than(result['balance'], 0.0)
        balance = result['balance']

        faucet  = rpc.faucetaddress()
        assert_equal(faucet['result'], 'success')
        # verify all keys look like valid AC addrs, could be better
        for x in ['myCCaddress', 'FaucetCCaddress', 'Faucetmarker', 'myaddress']:
            assert_equal(faucet[x][0], 'R')

        result  = rpc.faucetaddress(self.pubkey)
        assert_success(result)
        # test that additional CCaddress key is returned
        for x in ['myCCaddress', 'FaucetCCaddress', 'Faucetmarker', 'myaddress', 'CCaddress']:
            assert_equal(result[x][0], 'R')

        # no funds in the faucet yet
        result = rpc.faucetget()
        assert_error(result)

        result = rpc.faucetinfo()
        assert_success(result)

        result = rpc.faucetfund("0")
        assert_error(result)

        result = rpc.faucetfund("-1")
        assert_error(result)

        # we need at least 1 + txfee to get
        result = rpc.faucetfund("2")
        assert_success(result)
        assert result['hex'], "hex key found"

        # broadcast the xtn
        result = rpc.sendrawtransaction(result['hex'])
        txid   = result[0]
        assert txid, "found txid"

        # we need the tx above to be confirmed in the next block
        rpc.generate(1)
        self.sync_all()

        result   = rpc.getwalletinfo()
        # minus one block reward
        balance2 =  result['balance'] - 100000
        # make sure our balance is less now
        assert_greater_than(balance, balance2)

        result = rpc.faucetinfo()
        assert_success(result)
        assert_greater_than( result['funding'], 0 )

        # claiming faucet on second node
        faucetgethex = rpc1.faucetget()
        assert_success(faucetgethex)
        assert faucetgethex['hex'], "hex key found"

        balance1 = rpc1.getwalletinfo()['balance']

        # try to broadcast the faucetget transaction
        result = self.send_and_mine(faucetgethex['hex'], rpc1)
        assert txid, "transaction broadcasted"

        balance2 = rpc1.getwalletinfo()['balance']
        assert_greater_than(balance2, balance1)

        self.sync_all()

    def run_test(self):
        print("Mining blocks...")
        rpc = self.nodes[0]
        rpc1 = self.nodes[1]
        # utxos from block 1 become mature in block 101
        rpc.generate(101)
        self.sync_all()
        rpc.getinfo()
        rpc1.getinfo()
        # this corresponds to -pubkey above
        print("Importing privkeys")
        rpc.importprivkey(self.privkey)
        rpc1.importprivkey(self.privkey1)
        self.run_faucet_tests()


if __name__ == '__main__':
    CryptoconditionsFaucetTest ().main()
separated tests for different CCs to different files 6 years ago			`#!/usr/bin/env python2`
			`# Copyright (c) 2018 SuperNET developers`
			`# Distributed under the MIT software license, see the accompanying`
			`# file COPYING or http://www.opensource.org/licenses/mit-license.php.`


			`from test_framework.test_framework import BitcoinTestFramework`
			`from test_framework.authproxy import JSONRPCException`
			`from test_framework.util import assert_equal, assert_greater_than, \`
			`initialize_chain_clean, initialize_chain, start_nodes, start_node, connect_nodes_bi, \`
			`stop_nodes, sync_blocks, sync_mempools, wait_bitcoinds, rpc_port, assert_raises`
			`from cryptoconditions import assert_success, assert_error, generate_random_string`


			`class CryptoconditionsFaucetTest(BitcoinTestFramework):`

			`def setup_chain(self):`
			`print("Initializing CC test directory "+self.options.tmpdir)`
			`self.num_nodes = 2`
			`initialize_chain_clean(self.options.tmpdir, self.num_nodes)`

			`def setup_network(self, split = False):`
			`print("Setting up network...")`
			`self.addr = "RWPg8B91kfK5UtUN7z6s6TeV9cHSGtVY8D"`
			`self.pubkey = "02676d00110c2cd14ae24f95969e8598f7ccfaa675498b82654a5b5bd57fc1d8cf"`
			`self.privkey = "UqMgxk7ySPNQ4r9nKAFPjkXy6r5t898yhuNCjSZJLg3RAM4WW1m9"`
			`self.addr1 = "RXEXoa1nRmKhMbuZovpcYwQMsicwzccZBp"`
			`self.pubkey1 = "024026d4ad4ecfc1f705a9b42ca64af6d2ad947509c085534a30b8861d756c6ff0"`
			`self.privkey1 = "UtdydP56pGTFmawHzHr1wDrc4oUwCNW1ttX8Pc3KrvH3MA8P49Wi"`
			`self.nodes = start_nodes(self.num_nodes, self.options.tmpdir,`
			`extra_args=[[`
			`# always give -ac_name as first extra_arg and port as third`
			`'-ac_name=REGTEST',`
			`'-conf='+self.options.tmpdir+'/node0/REGTEST.conf',`
			`'-port=64367',`
			`'-rpcport=64368',`
			`'-regtest',`
			`'-addressindex=1',`
			`'-spentindex=1',`
			`'-ac_supply=5555555',`
			`'-ac_reward=10000000000000',`
			`'-pubkey=' + self.pubkey,`
			`'-ac_cc=2',`
			`'-whitelist=127.0.0.1',`
			`'-debug',`
			`'--daemon',`
			`'-rpcuser=rt',`
			`'-rpcpassword=rt'`
			`],`
			`['-ac_name=REGTEST',`
			`'-conf='+self.options.tmpdir+'/node1/REGTEST.conf',`
			`'-port=64365',`
			`'-rpcport=64366',`
			`'-regtest',`
			`'-addressindex=1',`
			`'-spentindex=1',`
			`'-ac_supply=5555555',`
			`'-ac_reward=10000000000000',`
			`'-pubkey=' + self.pubkey1,`
			`'-ac_cc=2',`
			`'-whitelist=127.0.0.1',`
			`'-debug',`
			`'-addnode=127.0.0.1:64367',`
			`'--daemon',`
			`'-rpcuser=rt',`
			`'-rpcpassword=rt']]`
			`)`
			`self.is_network_split = split`
			`self.rpc = self.nodes[0]`
			`self.rpc1 = self.nodes[1]`
			`self.sync_all()`
			`print("Done setting up network")`

			`def send_and_mine(self, xtn, rpc_connection):`
			`txid = rpc_connection.sendrawtransaction(xtn)`
			`assert txid, 'got txid'`
			`# we need the tx above to be confirmed in the next block`
			`rpc_connection.generate(1)`
			`return txid`

			`def run_faucet_tests(self):`
			`rpc = self.rpc`
			`rpc1 = self.rpc1`

			`# basic sanity tests`
			`result = rpc.getwalletinfo()`
			`assert_greater_than(result['txcount'], 100)`
			`assert_greater_than(result['balance'], 0.0)`
			`balance = result['balance']`

			`faucet = rpc.faucetaddress()`
			`assert_equal(faucet['result'], 'success')`
			`# verify all keys look like valid AC addrs, could be better`
			`for x in ['myCCaddress', 'FaucetCCaddress', 'Faucetmarker', 'myaddress']:`
			`assert_equal(faucet[x][0], 'R')`

			`result = rpc.faucetaddress(self.pubkey)`
			`assert_success(result)`
			`# test that additional CCaddress key is returned`
			`for x in ['myCCaddress', 'FaucetCCaddress', 'Faucetmarker', 'myaddress', 'CCaddress']:`
			`assert_equal(result[x][0], 'R')`

			`# no funds in the faucet yet`
			`result = rpc.faucetget()`
			`assert_error(result)`

			`result = rpc.faucetinfo()`
			`assert_success(result)`

			`result = rpc.faucetfund("0")`
			`assert_error(result)`

			`result = rpc.faucetfund("-1")`
			`assert_error(result)`

			`# we need at least 1 + txfee to get`
			`result = rpc.faucetfund("2")`
			`assert_success(result)`
			`assert result['hex'], "hex key found"`

			`# broadcast the xtn`
			`result = rpc.sendrawtransaction(result['hex'])`
			`txid = result[0]`
			`assert txid, "found txid"`

			`# we need the tx above to be confirmed in the next block`
			`rpc.generate(1)`
			`self.sync_all()`

			`result = rpc.getwalletinfo()`
			`# minus one block reward`
			`balance2 = result['balance'] - 100000`
			`# make sure our balance is less now`
			`assert_greater_than(balance, balance2)`

			`result = rpc.faucetinfo()`
			`assert_success(result)`
			`assert_greater_than( result['funding'], 0 )`

			`# claiming faucet on second node`
			`faucetgethex = rpc1.faucetget()`
			`assert_success(faucetgethex)`
			`assert faucetgethex['hex'], "hex key found"`

			`balance1 = rpc1.getwalletinfo()['balance']`

			`# try to broadcast the faucetget transaction`
			`result = self.send_and_mine(faucetgethex['hex'], rpc1)`
			`assert txid, "transaction broadcasted"`

			`balance2 = rpc1.getwalletinfo()['balance']`
			`assert_greater_than(balance2, balance1)`

			`self.sync_all()`

			`def run_test(self):`
			`print("Mining blocks...")`
			`rpc = self.nodes[0]`
			`rpc1 = self.nodes[1]`
			`# utxos from block 1 become mature in block 101`
			`rpc.generate(101)`
			`self.sync_all()`
			`rpc.getinfo()`
			`rpc1.getinfo()`
			`# this corresponds to -pubkey above`
			`print("Importing privkeys")`
			`rpc.importprivkey(self.privkey)`
			`rpc1.importprivkey(self.privkey1)`
			`self.run_faucet_tests()`


			`if __name__ == '__main__':`
			`CryptoconditionsFaucetTest ().main()`